# Testing Ray Triangle Intersections

I have a collection of triangles in 3D space being rendered, a point (X, Y) in screen coordinates and I want to find which, if any, of the triangles in the 3D scene it has the closest intersection with.

I know the general approach is first to create a ray with direction R and origin Ro. Then the intersection point on the plane defined by the triangle will be Ip = Ro + tR where t is some scalar. As I understand it, once a value of t is found one then has to check if the intersection is inside the triangle using Areal coordinates alpha, beta, gamma where the point is inside the triangle if 0 <= alpha, beta, gamma <= 1

My implementation is in java, and my screen coordinates are calculated using the openGL transformation strategy found here

I do not need my solution to be particularly efficient, the simplest strategy will be fine

I know this is a standard sort of problem and I had a read around, there's a question here that points to some slides here but they don't answer my particular questions. There's another here that advises the use of openGL functions that I don't have available and endless numbers of lecture slides around the internet but none of them answer all of my questions (or at least not in ways I can understand :-))

Questions

How do I calculate the direction of the ray?
I've been using the approach described in these University of Calgary slides

``````Vector Du = lookVector.cross(upVector).normalise()
Vector Dv = lookVector.cross(Du).normalise()

Float f = width / (2*Math.tan((0.5 * fieldOfView) * Math.PI/180))
Vector Vp = lookVector.normalise()

Vp.x = Vp.x*f - 0.5 *(width*Du.x + height*Dv.x)
Vp.y = Vp.y*f - 0.5 *(width*Du.y + height*Dv.y)
Vp.z = Vp.z*f - 0.5 *(width*Du.z + height*Dv.z)
``````

Then:

``````directionVector = new Vector(i*Du.x + j*Dv.x + Vp.x, i*Du.y + j*Dv.y + Vp.y, i*Du.z + j*Dv.z + Vp.z)
``````

Where i and j are the loop counters, corresponding to X,Y points on screen

First, is this the correct (or easiest) way to generate the ray direction? If not, what is?

Problems:
I don't have a lookVector. My cameria orientation is stored as three rotations (in degrees) around the principal axes. I tried using (0, 0, -1) since I've based my implementation on openGL and the camera in openGL and openGL 'camera' is always pointing in that direction. Is that valid or do I need to work out a vector from my angles, if so, how?

I don't have a value for fieldOfView because in the openGL setup there's no mention of it (or not by that name). Can I ignore that step or do I need to work it out, if so, how?

Should I be testing in world coordinates or eye coordinates?

Should I translate the triangle vertices into eye coordinates before I start comparison, and thus have an eye/camera position at the origin? Or keep everything in world coordinates?

How do I find the intersection point?
I've been working from some Stanford sildes

We have a ray,

``````Ro + tR
``````

a point on a plane A and its normal N, which gives us

``````t = ((A - Ro).dotProduct(N)) / R.dotProduct(N)
``````

Is this approach correct?

How do I test if it's inside the triangle?

The same stanford slides suggest that we can test if the intersection point is inside the triangle (A, B, C) by checking:

``````R.dotProduct(N)
((A-Ro)cross(B-Ro)).dot(R) > 0
((A-Ro)cross(C-Ro)).dot(R) > 0
((B-Ro)cross(C-Ro)).dot(R) > 0
``````

Is this approach correct?

-
Too many questions! – Gareth Rees Apr 14 '12 at 18:58
You're trying to do far too much at once, and you're trying to do it without going to the trouble of understanding the geometry. I suggest you start with a camera at the origin, pointing in the `-Z` direction, and figure out how to map spacial coordinates to screen coordinates. Then think about locations, then orientations, then points inside triangles. – Beta Apr 14 '12 at 20:06